Methodology for Selecting Road Construction Equipment in Conditions of Insufficient Information

The choice of the model is one of the determining factors within the concept of assessing the efficiency of equipment during its full life cycle.

The objective of this work is to justify the application of the methodology for assessing the competitiveness and quality of equipment as applied to road construction machines, improved by the authors and proposed for selecting machines under conditions of partial uncertainty and lack of information.

The article methodologically substantiates the information sets to assess the equipment at the selection stage, presents the results of studies of changes in the cost of road construction machines in the secondary market of the Russian Federation, offers assessment approaches to determining the quality and performance of products, and provides a final algorithm of an integral assessment based on individual competitiveness indicators. Methodologically, the proposed method may be of interest when assessing other types and classes of equipment under similar assessment conditions.

1. Anistratov, K.Yu., Lukichev, S. V., Isaichenkov, A. B. Comparative analysis of efficiency of rope and hydraulic excavators. Gornyi Zhurnal, 2020, pp. 74–78. DOI: 10.17580/gzh.2020.12.17.

2. Janosevic, D., Mitrev, R., Andjelkovic, B., Petrov, P. Quantitative measures for assessment of the hydraulic excavator digging efficiency. Journal of Zhejiang University SCIENCE A, 2012, Vol. 13, pp. 926–942. DOI: 10.1631/jzus. A1100318.

3. Wang, F.; Wen, Q.; Xu, X.; Xu, B.; Sun, Z. Site Operation Strategy for Wheel Loader/Truck Loading and Transportation Cycle. IEEE Transactions on Vehicular Technology, 2021, Vol. 70, Iss. 5, pp. 4129–4138. DOI: 10.1109/TVT.2021.3070394.

4. Akhil, P. V. G. N. H., Madiraju, S., Ravi Kiran K., R., Deepthi, Y. P. Proliferation of Market Share of Hydraulic Excavators and Wheel Loaders in the Stone Crusher Segment by Strategic Decisions. International Journal of Recent Technology and Engineering (IJRTE), 2020, Vol. 9, Iss. 1, рр. 947–951. DOI: 10.35940/ijrte.A2163.059120.

5. Surashov, N., Tolymbek, D. Development of complex indicators and evaluation of efficiency for dump-type earthmoving and transport machines. The Russian Automobile and Highway Industry Journal, 2022, Vol. 19, Iss. 6, pp. 814–827. DOI: 10.26518/2071-7296-2022-19-6-814-827.

6. Ivashkiv, T. Evolution of methods of estimation of machines and equipment is on competitiveness. Market Infrastructure, 2022. DOI: 10.32843/infrastruct66-1.

7. Rachman, F. A., Zaenal, Iswandaru. Kajian Teknis dan Ekonomis dalam Merencanakan Penggantian Alat Angkut pada Pengupasan Overburden Penambangan Batubara PT Citra Mitra Sehati Site Job PT Cakra Bumi Pertiwi di Kecamatan Ulok Kupai, Kabupaten Bengkulu Utara, Provinsi Bengkulu. Bandung Conference Series: Mining Engineering, 2023, Vol. 3. DOI: 10.29313/bcsme.v3i1.6778.

8. Enyindah, N. C., Amadi, R. K. Using Diagnosis and Life Cycle Cost to Improve Reliability of an Excavator. European Journal of Engineering and Technology Research, 2019, Vol. 4, Iss. 3, pp. 21–26. DOI: 10.24018/ejeng.2019.4.3.1107.

9. Anufriev, K. A., Repin, S. V.Analysis of the state of the construction equipment market at the beginning of 2023 [Analiz sostoyaniya rynka stroitelnoi tekhniki na nachalo 2023 goda]. Mekhatronika, avtomatika i robototekhnika, 2023, Iss. 11, pp. 127–132. DOI: 10.26160/2541-8637-2023-11-127-132.

10. Grushetsky, S. M., Evtyukov, S. A., Kuznecov, A.A. Determination of technical and operating performance of road machines based on analysis of the scope of work [Opredelenie tekhnicheskoi i ekspluatatsionnoi proizvoditelnostei dorozhnykh mashin na osnove analiza obemov rabot]. Nauchno-tekhnicheskiy vestnik Bryanskogo gosudarstvennogo universiteta, 2021, Iss. 1, pp. 38–52. EDN: EPLQOA.

11. Grushetskii, S. M., Evtiukov, S. A., Repin, S. V., Karro, G.A. Productivity as a quality criterion for evaluating the efficiency of all stages of the life cycle system of road machines [Proizvoditelnost kak kachestvenniy kriteii otsenki effektivnosti vsekh etapov sistemy zhiznennogo tsikla dorozhnykh mashin]. Bulletin of the Moscow Automobile and Road Construction State Technical University (MADI), 2020, Iss. 4 (63), pp. 36–43. EDN: PJSSPR.

12. Evtyukov, S. A., Repin, S. V., Grushetsky, S. M., Karro, G.A. Formation of a fleet of vehicles for construction, reconstruction, repair and maintenance of highways, taking into account the stages of their life cycle [Formirovanie parka mashin dlya stroitelstva, rekonstruktsii, remonta i soderzhaniya avtomobilnykh dorog s uchetom etapov ikh zhiznennogo tsikla]. Bulletin of the Moscow Automobile and Road State Technical University (MADI), 2020, Iss. 3 (62), pp. 62–69. EDN: EFBBFJ.

13. Evtiukov, S. A., Repin, S. V., Grushetskii, S. M., Kаrro, G. A. Scientific objectives of research on road machines life cycle in modern conditions. The Russian Automobile and Highway Industry Journal, 2020, Vol. 17, Iss. 4 (74), pp. 442–451. DOI: 10.26518/2071-7296-2020-17-4-442-451.

14. Maksimov, S. E., Repin, S. V., Zazykin, A. V., Chechuev, V. E.The analysis of the market of road-building cars in Russia and evolution of consumer qualities of these cars [Analiz rynka dorozhno-stroitelnykh mashin v Rossii i evolyutsiya potrebitelskikh kachestv etikh mashin]. Stroitelnye i dorozhnye mashiny, 2019, Iss. 7, pp. 3–12.

15. Mirzaev, R. R., Terentyev, A. V. Methods for assessing the quality of transport vehicles operated in the agro-industrial complex [Metody otsenki kachestva transportnykh mashin, ekspluatiruemykh v agropromyshlennom komplekse ]. Readings of Academician V. N. Boltinsky, Moscow, January 25–26, 2022. Volume Part 2. Moscow, LLC «Sam poligrafist» publ., 2022, pp. 20–26.

16. Mirzaev, R. R., Karelina, M.Yu., Terentyev, A. V., Sidorov, B. B. Structure of hierarchical multi-criteria system for assessing the quality of transport machines operated in the agro-industrial complex [Struktura ierarkhicheskoi mnogokriterialnoi sistemy otsenki kachestva transportnykh mashin, ekspluatiruemykh v agropromyshlennom komplekse]. International technical and economic journal, 2022, Iss. 2, pp. 45–53. EDN: ORIHCS.

17. Meike, U. N., Terentyev, A. V., Dobromirov, V. N. Investigation of the possibility of applying the zoning method for the selection of road construction machines [Issledovanie vozmozhnosti primeneniya raionirovaniya dlya vybora dorozhno-stroitelnykh mashin]. Stroitelnye i dorozhnye mashiny, 2022, Iss. 6, pp. 26–31. EDN: CGIMXE.

18. Smirnov, P. I. Methodology for assessing the competitiveness of passenger cars [Metodika otsenki konkurentosposobnosti legkovykh avtomobilei]. In: Science in the modern information society: Proceedings of VII international scientific and practical conference, North Charleston, USA, November 9–10, 2015. Scientific-industrial centre «Akademicheskiy», Vol. 1. CreateSpace, 2015, pp. 130–133. EDN: UTTIDF.

19. Koryakovsky, A. N., Smirnov, P. I. Development of a methodology for determining the effective service life of logging equipment of JSC LPK Kipelovo [Razrabotka metodiki opredeleniya effektivnogo sroka ekspluatatsii lesozagotovitelnoi tekhniki AO «LPK «Kipelovo»]. In: New materials, equipment and technologies in industry: Proceedings of the International scientific and technical conference of young scientists, Mogilev, October 28–29, 2021. Ed. board: M. E. Lustenkov (editor-in-chief) [et al.]. Mogilev, Interstate educational institution of higher education «Belarusian-Russian University», 2021, P. 114. EDN: BXSPRG.

20. Sokolov, L. Yu., Smirnov, P. I. Development of a methodology for forming an optimal fleet of equipment for JSC LPK Kipelovo [Razrabotka metodiki formirovaniya optimalnogo parka tekhniki AO «LPK «Kipelovo»]. In: New materials, equipment and technologies in industry: Proceedings of the International scientific and technical conference of young scientists, Mogilev, October 28–29, 2021. Ed. board: M. E. Lustenkov (editor-in-chief) [et al.]. Mogilev, Interstate educational institution of higher education «Belarusian-Russian University», 2021, P. 119. EDN: FWBDKF.

21. Terentyev, A.V.Scientific and methodological approach to multi-criteria assessment of the service life of a car. D.Sc. (Eng) thesis [Nauchno-metodicheskiy podkhod k mnogokriterialnoi otsenke sroka ekspluatatsii avtomobilya. Diss…dokt.tekh.nauk]. Moscow, MADI publ., 2018, 303 p.